JP2012242038A - Blowing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a blowing device raising treatment efficiency of indoor air.SOLUTION: In the blowing device, an ion generating device 26 is disposed to a blowing passage 21a. A positive electrode 26a generating positive ions and a negative electrode 26b generating negative ions are disposed to a bottom face of the ion generating device 26. The positive electrode 26a and negative electrode 26b treat air inside a bathroom, by releasing the positive ions and negative ions into air A flowing in the blowing passage 21a, and are disposed orthogonally to the blowing passage 21a.

Description

  The present invention relates to a blower used for ventilation, heating, drying, etc. in a room such as a bathroom, and more particularly, to a blower provided with an air treatment device that processes indoor air using air flowing from a blower passage into the room. .

  Conventionally, for example, a blower as described in Patent Document 1 is used for ventilation, heating, drying, and the like in a bathroom.

  In the blower of Patent Document 1, a fan is disposed in a fan case, and a blower passage is formed on one side of the peripheral surface of the fan. A plus electrode and a minus electrode (a plurality of air treatment units) of an ion generator (air treatment device) are arranged in the air passage.

  Positive ions and negative ions are generated from the positive electrode and the negative electrode, respectively. These positive ions and negative ions are released into the air flowing through the air passage and sent to the room, and decompose the bacteria in the room air to clean the room air.

JP 2004-353777 A

  However, since the positive electrode and negative electrode of an ion generator are arrange | positioned in parallel with the ventilation path in the air blower of patent document 1, the air which passed each electrode mixes. Therefore, the positive ions and negative ions generated from both electrodes are canceled and cannot be sent indoors, and the indoor air cannot be sufficiently treated.

  This invention is made | formed in view of such a conventional subject, and it aims at providing the air blower which can improve the processing efficiency of indoor air.

  As a result of intensive studies, the present inventors have adopted the following blower to solve the above-mentioned problems.

The blower of the present invention is
In the fan case, a plurality of air processing units that process the air in the room using air flowing from the air path to the room are orthogonally arranged in the air path formed on one side of the peripheral surface of the fan. It is characterized by having an air treatment device.

  Here, it is preferable to arrange | position the baffle plate which isolate | separates the flow of the air which passes a several air treatment part into the air flow which passes each air treatment part in a ventilation path.

  Furthermore, it is preferable to arrange the current plate on the downstream side of the air treatment device.

  Further, the air treatment device may be arranged outside the fan case, and the plurality of air treatment units may be arranged so as to be exposed to the air passage.

  In this case, an opening for attachment may be provided in a portion corresponding to the air passage of the fan case, and the air treatment device may be fitted into the attachment opening and the plurality of air treatment portions may be exposed to the air passage. preferable.

  Further, in this case, it is preferable to provide a waterproof sealing material between the air treatment device and the mounting opening.

  Further, a holder for accommodating the air treatment device may be attached to the outer surface of the fan case.

  In this case, it is preferable to provide a waterproof sealing material between the holder and the outer surface of the fan case.

  In the air blower of the present invention, since the plurality of air treatment units are arranged orthogonal to the air passage, the air that has passed through the air treatment units can be sent to the room without being mixed. Therefore, the air blower of the present invention can improve indoor air processing efficiency.

It is a disassembled perspective view of the air blower of one embodiment of the present invention. It is the figure which looked at the air blower of the embodiment from the lower side. It is the figure which removed the front panel from FIG. 2 and was seen from the lower side. It is a figure which shows the flow of the air at the time of arrange | positioning a baffle plate in the downstream of the ion generator of the embodiment. (A) is a figure which shows the flow of the air at the time of arrange | positioning a baffle plate in the upstream of an ion generator. (B) is a figure which shows the flow of the air at the time of arrange | positioning a baffle plate in the upstream and downstream of an ion generator. It is NN sectional drawing of FIG. It is a disassembled perspective view containing the attachment structure of the ion generator in the air blower of the embodiment. It is a figure which shows the state which divided | segmented the holder into right and left. (A) is a top view of a holder. (B) is a front view of a holder. (A) is a bottom view of an ion generation unit. (B) is a rear view of the ion generation unit.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is an exploded perspective view of a blower 1 according to an embodiment of the present invention. This blower 1 is used for ventilation, heating, and drying of a bathroom which is an example of a room, and is provided on a ceiling portion of the bathroom. The blower 1 includes a blower main body 2, a front panel 3 mounted on the bottom surface of the blower main body 2, and an outer case 4 that covers the blower main body 2.

  The front panel 3 is made of a resin and is formed in a plate shape that covers the bottom surface of the blower body 2. As shown in FIG. 2, the front panel 3 is provided with an intake port 31 and an air outlet 32. On both sides of the air outlet 32, the storage ports 100, 100 for the filter 110 are provided. The filter 110 is accommodated on the back side through both the accommodation ports 100, 100.

  The outer case 4 is made of metal and is formed in a box shape covering the blower main body 2 as shown in FIG. A discharge port 41 is provided on the side wall of the outer case 4. A joint connection member 42 is attached to the discharge port 41. A discharge duct (not shown) is connected to the joint connecting member 42, and the discharge duct is passed outside the building. Further, the outer case 4 covers a substrate cover portion 43 that covers a substrate 25 described later, an ion generation unit cover portion 44 that covers an ion generation unit 30 described later, and a terminal block (not shown) used for power connection. And a terminal block cover portion 45.

  Although not shown, the blower main body 2 is installed in a ceiling opening provided in a ceiling portion of the bathroom from the bathroom side, and a lower portion is exposed to the bathroom. As shown in FIGS. 1 and 3, the blower main body 2 includes a fan case 21, a fan 22 provided in the fan case 21, a heater 23, a damper 24, a substrate 25, an ion generation unit 30 (ion generator). 26 and holder 27).

  The fan case 21 is formed in a box shape with an open bottom wall, and is formed so as to be fitted into the ceiling opening. As shown in FIG. 3, the bottom wall of the fan case 21 is formed with an inlet 211 at a portion corresponding to the inlet 31 of the front panel 3, and at a portion corresponding to the outlet 32 of the front panel 3. An air outlet 212 is formed.

  As shown in FIGS. 1 and 3, a fan housing portion 213 facing the intake port 211 and a heater housing portion 214 facing the air outlet 212 bulge upward on the upper surface of the fan case 21. Is formed.

  As shown in FIG. 3, the fan 22 is accommodated in the fan accommodating portion 213. The fan 22 is a sirocco fan having a cylindrical peripheral surface provided with wings. When the fan 22 is rotationally driven by the fan motor 22a (see FIG. 1), the air is taken in from the intake port 211, and the taken-in air is It is comprised so that it may send out. On one side of the peripheral surface of the fan 22, a blower passage 21 a for sending air sent from the peripheral surface of the fan 22 to the heater accommodating portion 214 is formed.

  The heater 23 is accommodated in the heater accommodating portion 214. The heater 23 is used to blow warm air into the bathroom. As shown in FIG. 1, a substrate 25 is attached to the upper side of the heater accommodating portion 214. A fan motor of the fan 22, a heater 23, a damper 24, and an ion generator 26 are connected to the substrate 25, and these operations are controlled.

  A discharge port 215 connected to the discharge port 41 of the outer case 4 is provided on the side of the heater housing 214. A damper 24 is provided inside the discharge port 215. The damper 24 rotates at an arbitrary angle, and sends the air flowing from the air passage 21a to the discharge port 215 and the air outlet 212 with the amount adjusted.

  When the fan 22 rotates, the air blower 1 configured as described above takes air in the bathroom from the intake port 211 and sends it out from the peripheral surface. The sent air passes through the air passage 21a and is blown out from the blower outlet 212 into the bathroom by the damper 24, or is discharged outside the building through the discharge ports 215 and 41, the joint connection member 42, and the discharge duct.

  Moreover, in this air blower 1, as shown in FIG. 3, the ion generator 26 is arrange | positioned at the ventilation path 21a. The ion generator 26 includes a positive electrode 26a that generates positive ions on the bottom surface and a negative electrode 26b that generates negative ions.

  As shown in FIG. 4, the positive electrode 26a and the negative electrode 26b are for treating the air in the bathroom by releasing positive ions and negative ions into the air A flowing through the air passage 21a. It arrange | positions so that it may orthogonally cross. Therefore, the air B passing through the positive electrode 26a and the air C passing through the negative electrode 26b do not mix with each other, so that positive ions and negative ions are sent to the bathroom without being canceled and decompose bacteria in the air in the bathroom. It becomes possible to do. Therefore, the air blower 1 of this Embodiment can improve the processing efficiency of the air in a bathroom.

  Further, a plurality of rectifying plates 28 are arranged on the downstream side of the ion generator 26 in the air passage 21a. The plurality of rectifying plates 28 are formed upright from the inner surface 213 a of the fan accommodating portion 213. Further, as shown in FIG. 4, the plurality of rectifying plates 28 convert the flow of air A through the positive electrode 26a and the negative electrode 26b into the flow of air B through the positive electrode 26a and the flow of air C through the negative electrode 26b. Arranged to separate.

  Therefore, it is possible to reliably prevent the air B passing through the plus electrode 26a and the air C passing through the minus electrode 26b from being mixed. Thereby, the positive ions and the negative ions are sent to the bathroom without being canceled, and the bacteria in the indoor air can be reliably decomposed. Therefore, the air blower 1 of this Embodiment can further improve the processing efficiency of the air in a bathroom.

  The number of rectifying plates 28 can be changed according to the size of the ion generator 26. In the air blower 1 of this Embodiment, although the baffle plate 28 was arrange | positioned in the air flow path 21a at the downstream of the ion generator 26, the arrangement position of the baffle plate 28 is not limited to this position. For example, a rectifying plate 128 may be disposed upstream of the ion generator 26 as shown in FIG. 5A, or upstream and downstream of the ion generator 26 as shown in FIG. 5B. The rectifying plates 128 and 28 may be disposed on the side.

  Further, as shown in FIG. 4 and FIG. 5B, by arranging the rectifying plate 28 on the downstream side of the ion generator 26, the operation sound (particularly in the high frequency range) of the ion generator 26 can be blown out. Leakage to the side can be suppressed by the current plate 28. Therefore, user discomfort can be reduced.

  The rectifying plate 28 on the fan 22 side (inner side) is set to be lower than the other rectifying plates 28. Thereby, since it is possible to easily flow the air sent out from the fan 22 to the opposite side (outside) from the fan 22, the air can be blown out uniformly into the bathroom from the air outlet 212.

  Moreover, in the air blower 1 of this Embodiment, the ion generator 26 is arrange | positioned in the vicinity of the fan 22, as shown in FIG. Thereby, the operation sound of the ion generator 26 becomes inconspicuous due to the operation sound of the fan 22 larger than this operation sound. Therefore, since the user can only hear the operation sound of the fan 22, the user's discomfort can be reduced.

  In addition, as shown in FIGS. 1, 3, and 6, the ion generator 26 is disposed outside the fan case 21 (between the fan case 21 and the outer case 4), and the plus electrode 26a and the minus electrode 26b are provided. It is exposed and arranged in the air passage 21a. Therefore, even if the humidity in the fan case 21 increases due to condensation in the bathroom, the ion generator 26 has only the positive electrode 26a and the negative electrode 26b disposed in the fan case 21, so the humidity affects the operation. Can be prevented.

  Next, the mounting structure of the ion generator 26 will be specifically described. As shown in FIG. 7, a mounting opening 216 is provided on the upper surface of the fan case 21 at a portion corresponding to the air passage 21a (see FIG. 3).

  On the other hand, the ion generator 26 is accommodated in the holder 27 to form the ion generation unit 30 and is fitted into the mounting opening 216 in this state. The holder 27 is attached to the upper surface (outer surface) of the fan case 21 by fixing members such as attachment screws 29 and 29.

  Since the ion generator 26 is attached to the upper surface of the fan case 21 using the holder 27 as described above, the ion generator 26 can be easily attached. Moreover, since the ion generator 26 is covered with the holder 27, the ion generator 26 can also be protected from an external impact.

  Further, as shown in FIG. 8, the holder 27 is formed in a container shape having an open lower surface so as to accommodate the ion generator 26. Further, the holder 27 is configured by assembling a pair of divided members 271 and 272 divided into left and right. Both the divided members 271 and 272 are the same member and are arranged in the reverse direction.

  The configuration of the divided members 271 and 272 will be described with reference to FIGS. 8 and 9A and 9B. The left split member 271 includes a left wall 2711, a rear wall 2712, and an upper wall 2713. A flange 2714 is formed from the outside of the left side wall 2711 to the outside of the rear wall 2712. A rib 2715 for reinforcement is formed on the flange 2714 and the left side wall 2711.

  An engagement hole 271 a is provided in the front portion of the left side wall 2711. On the lower side of the middle portion of the left side wall 2711, hook-shaped holding claws 271b and 271b for holding the ion generator 26 are provided. A screw hole 271c through which a screw 29 (see FIG. 7) is passed is provided at the rear corner of the flange 2714. An engagement claw 271d is provided on the inner end side of the rear wall 2712 so as to protrude rightward. On the inner end side of the upper wall 2713, an engagement claw 271e and an engagement hole 271f projecting to the right are provided.

  The right split member 272 includes a right wall 2721, a front wall 2722, and an upper wall 2723. A flange 2724 is formed from the outside of the right wall 2721 to the outside of the front wall 2722. A rib 2725 for reinforcement is formed on the flange 2724 and the right side wall 2721.

  A screw hole 272c through which a screw 29 (see FIG. 7) is passed is provided at the front corner of the flange 2724. An engaging claw 272d is provided on the inner end side of the front wall 2722 so as to protrude to the left. On the lower side of the middle portion of the right side wall 2721, hook-shaped holding claws 272b and 272b for holding the ion generator are provided. An engagement hole 272a is provided in the rear portion of the right wall 2721. On the inner end side of the upper wall 2723, an engaging claw 272e and an engaging hole 272f projecting to the left are provided.

  In order to accommodate the ion generator 26 in the holder 27 configured as described above, for example, the following sequence is performed.

  First, the ion generator 26 is put in the left split material 271 and is held by the holding claws 271b and 271b.

  Next, the engaging claws 272d and 272e of the right split member 272 are put into the engaging holes 271a and 271f of the left split member 271 to be engaged. At the same time, the engaging claws 271d and 271e of the left divided member 271 are engaged with the engaging holes 272a and 272f of the right divided member 272, and the ion generator 26 is held by both holding claws 271b, 271b, 272b and 272b. Hold. 10A and 10B show a state in which the ion generator 26 is accommodated in the holder 27. FIG.

  As described above, the holder 27 according to the present embodiment is composed of the pair of split members 271 and 272, so that when the ion generator 26 is accommodated in the holder 27, the ion generator 26 is placed in one split member. What is necessary is just to assemble the other division material in a state. Therefore, the ion generator 26 can be easily accommodated in the holder 27 as compared with the case where the holder is not divided.

  Further, as shown in FIG. 10A, a waterproof seal material 53 is provided on the entire outer peripheral surface of the ion generator 26. As a result, when the ion generator 26 is fitted into the attachment opening 216 of the fan case 21, the sealing material 53 is provided between the ion generator 26 and the attachment opening 216. Therefore, the blower device 1 of the present embodiment can prevent water from entering the inside of the fan case 21 from the outside through the mounting opening 216 without the ion generating device 26 itself having a waterproof structure. Yes, the waterproof function can be enhanced.

  It is to be noted that a sealant is provided on the periphery of the attachment opening 216 or a sealant is provided on both the entire outer peripheral surface of the ion generator 26 and the periphery of the attachment opening 216 so that the ion generator 26 and the attachment opening are provided. A sealing material may be provided between the portion 216 and the portion 216.

  Further, waterproof sealing materials 51 and 52 are provided on the bottom surfaces of the split members 271 and 272 of the holder 27 except for the screw holes 271c and 272c and the holding claws 271b, 271b, 272b and 272b. . As a result, when the holder 27 is attached to the upper surface of the fan case 21, the sealing materials 51 and 52 are provided between the holder 27 and the upper surface of the fan case 21. Therefore, the blower device 1 of the present embodiment can reliably prevent water from entering the inside of the fan case 21 through the mounting opening 216, and can further enhance the waterproof function.

  As mentioned above, although embodiment which concerns on this invention was illustrated, this embodiment does not limit the content of this invention. Various modifications can be made without departing from the scope of the claims of the present invention.

  For example, in the present embodiment, the present invention is applied when the ion generator 26 is used as the air treatment device provided in the blower 1, but the present invention is applied when another air treatment device (fragrance device or the like) is used. The invention may be applied. Moreover, in this Embodiment, although what installed the air blower 1 in the bathroom was described, you may make it install in another room.

  As described above, the blower of the present invention can increase the processing efficiency of indoor air. Therefore, the blower of the present invention can be fully utilized in the technical field of blowers.

DESCRIPTION OF SYMBOLS 1 Air blower 21 Fan case 21a Air flow path 22 Fan 26 Ion generator (air treatment apparatus)
26a Positive electrode (air treatment part)
26b Negative electrode (air treatment part)
51 Waterproof Sealing Material 52 Waterproof Sealing Material 53 Waterproof Sealing Material 216 Attaching Opening A Air passing through the positive electrode and negative electrode B Air passing through the positive electrode C Air passing through the negative electrode

Claims (8)

  In the fan case, a plurality of air processing units that process the air in the room using air flowing from the air path to the room are orthogonally arranged in the air path formed on one side of the peripheral surface of the fan. An air blower characterized by comprising an air treatment device. The blower device according to claim 1,
An air blower characterized in that a rectifying plate for separating an air flow passing through the plurality of air processing units into an air flow passing through each air processing unit is arranged in the air blowing path. In the air blower according to claim 2,
The air blower characterized by arrange | positioning the said baffle plate in the downstream rather than the said air treatment apparatus. In the air blower according to any one of claims 1 to 3,
An air blower characterized in that the air treatment device is arranged outside the fan case and a plurality of air treatment units of the air treatment device are exposed to the air blowing path. The blower device according to claim 4,
An opening for attachment is provided in a portion corresponding to the air passage of the fan case,
The air blower characterized in that the air treatment device is fitted into the mounting opening and a plurality of air treatment units of the air treatment device are exposed to the air passage. The blower device according to claim 5,
A blower characterized in that a waterproof sealing material is provided between the air treatment device and the mounting opening. In the air blower according to any one of claims 4 to 6,
An air blower characterized in that a holder for housing the air treatment device is attached to an outer surface of the fan case. In the air blower according to claim 7,
A blower characterized in that a waterproof sealing material is provided between the holder and the outer surface of the fan case.